JP4413977B2 - Information processing apparatus and video reproduction method - Google Patents

Description

  The present invention relates to an information processing apparatus and a video reproduction method.

  In recent years, with the development of computer multimedia, computers equipped with DVD drives capable of reproducing DVDs (Digital Versatile Disks) are becoming popular. A single DVD-ROM medium can record about 4.7 Gbytes of data, which is about seven times the current CD-ROM on one side, and can record about 9.4 Gbytes of data on double-sided recording. By using this DVD-ROM medium, it is possible to reproduce a moving image such as a movie including a large amount of video information with high quality on a computer.

The data structure of the video information recorded on the DVD-ROM medium is defined by the DVD video standard. Video information is roughly divided into two types of data: presentation data and navigation data.

  Presentation data is a set of video objects to be played back, and is composed of video, sub-pictures, and audio. Video data is compressed and encoded by the MPEG-2 system. A sub-picture is bitmap data, and is used for displaying subtitles of movies, choices on a menu screen, and the like. One video object can include video data of one channel, audio data of up to 8 channels, and sub-picture data of up to 32 channels.

  In recent years, with the progress of digital compression encoding technology for moving images, playback devices (players) capable of handling HD (High Definition) standard high-definition video have begun to spread. Recently, software development for making it possible to handle HD-definition high-definition video on a personal computer is also in progress (see, for example, Patent Document 1).

In the information processing apparatus described in Patent Document 1, it is assumed that two cursors coexisting when a content in which a cursor is defined are reproduced in a multi-window environment can be appropriately operated according to a pointing device operation.
JP 2008-40826 A

  However, the conventional information processing apparatus performs various internal processes in the background even during the DVD playback operation. In particular, when playing a DVD, the internal processing load is greater than during normal operation, so SD (Standard Definition) video is converted to high-definition HD video and played back, and subtitles and menus are displayed. If an operation is to be performed, the load of internal processing becomes even larger, and there are problems such as discontinuity due to interruption of the reproduction of moving images depending on the situation.

  Accordingly, an object of the present invention is to provide an information processing apparatus and a video playback method that can perform video playback with high resolution processing while suppressing playback stop.

In order to achieve the above object, the present invention stores a stream data separation unit that separates compressed video data and compressed subpicture data from compressed stream data read from a recording medium, and stores the compressed video data and the compressed subpicture data. And a main controller for controlling reproduction of the recording medium and a bus connected to the decoding unit to generate high-resolution converted video data by decoding the compressed video data transmitted from the memory. The conversion processing unit and the first conversion processing unit are hardware different from each other, and generate the converted sub-picture data by increasing the resolution of data obtained by decoding the compressed sub-picture data transmitted from the memory. 2 conversion processing unit, the converted video data and the converted sub-picture data are combined and displayed. To provide an information processing apparatus characterized by comprising a drawing unit for outputting the parts, the.

According to another aspect of the present invention, there is provided a step of separating compressed video data and compressed sub-picture data from compressed stream data read from a recording medium, and storing the compressed video data and the compressed sub-picture data. A step of generating converted video data by increasing the resolution of the decoded video data transmitted from the memory connected to a main control unit that controls reproduction of the recording medium via a bus; and Generating converted sub-picture data by increasing the resolution of data obtained by decoding the compressed sub-picture data transmitted from the memory on hardware different from the hardware that generates the converted video data; and the converted video Display unit by combining data and the converted sub-picture data To provide a video reproducing method characterized by comprising the steps of: outputting.

  In order to achieve the above object, the present invention provides a reading means for reading stream data in which main video data and sub-video data are multiplexed from a storage medium, and the main video from the stream data read from the storage medium. Separation means for separating data and sub-picture data; first conversion means for performing high-resolution processing of sub-picture data obtained by decoding the sub-picture data on the CPU or GPU; via the CPU and the bus On a connected processor, a second conversion means for performing a resolution enhancement process of the main video obtained by decoding the main video data; a sub-video subjected to the resolution enhancement process by the first conversion means; An information processing apparatus comprising: a rendering unit that synthesizes on the CPU or the GPU and outputs to a display device a main video that has been subjected to high resolution processing by the conversion unit of 2

  According to the present invention, it is possible to perform video playback that has been subjected to high resolution processing while suppressing playback stop.

  Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is a perspective view showing an information processing apparatus according to an embodiment of the present invention.

(Embodiment of the present invention)
The information processing apparatus 1 is a notebook personal computer, and includes a computer main body 11 and a display unit 12. The display unit 12 incorporates a display device composed of an LCD (Liquid Crystal Display) 13.

  The display unit 12 is attached to the computer main body 11 so as to be rotatable between an open position and a closed position. The computer main body 11 has a thin box-shaped casing, and a keyboard 14, a power switch 15 for powering on / off the information processing apparatus 1, a touch pad 16, and the like are disposed on the top surface thereof.

  Further, a DVD drive 17 is provided on the side of the computer main body 11 as an optical media drive. The DVD drive 17 can perform recording and reproduction on a recording medium such as a CD (Compact Disc) or a DVD 18.

  FIG. 2 is a block diagram showing a system configuration of the information processing apparatus according to the embodiment of the present invention.

  As shown in FIG. 2, the information processing apparatus 1 includes a CPU 101, a north bridge 102, a main memory 103, a south bridge 104, a graphics processing unit (GPU) 105, a video memory (VRAM) 105A, a sound controller 106, and a BIOS. ROM 109, LAN controller 110, hard disk drive (HDD) 111, DVD drive 17, multimedia processor 112, card controller 113, wireless LAN controller 114, IEEE 1394 controller 115, embedded controller / keyboard controller IC (EC / KBC) 116, TV A tuner 117, a remote control unit interface 118, and the like are provided.

  The CPU 101 is a processor as a main control unit that controls the operation of the information processing apparatus 1, and various applications such as an operating system (OS) and a DVD application program loaded from the hard disk drive (HDD) 111 to the main memory 103. Run the program. The DVD application program is software for executing a recording / reproducing function for a DVD. The CPU 101 also executes a BIOS (Basic Input Output System) stored in the BIOS-ROM 109. The BIOS is a program for hardware control.

  The north bridge 102 is a bridge device that connects the local bus of the CPU 101 and the south bridge 104. The north bridge 102 also includes a memory controller that controls access to the main memory 103. The north bridge 102 also has a function of executing communication with the GPU 105 via a PCI Express standard serial bus or the like.

  The GPU 105 is a display controller that controls the LCD 13 that is used as a display monitor of the information processing apparatus 1. A display signal generated by the GPU 105 is sent to the LCD 13. The GPU 105 can also send a digital video signal to an external television apparatus (TV) 120 via the TV terminal 119, and send the digital video signal to the HDMI monitor 123 via the HDMI control circuit 121 and the HDMI terminal 122. You can also

  The south bridge 104 controls each device on an LPC (Low Pin Count) bus and each device on a PCI (Peripheral Component Interconnect) bus. The south bridge 104 includes an IDE (Integrated Drive Electronics) controller for controlling the hard disk drive (HDD) 111 and the DVD drive 17. Further, the south bridge 104 has a function of executing communication with the sound controller 106.

  Furthermore, the multimedia processor 112 is connected to the south bridge 104 via a PCI Express bus 135 which is a serial bus of the PCI Express standard.

The multimedia processor 112 converts HD video data (HD image quality) into video data included in compressed stream data as DVD playback data based on playback of a DVD by the DVD drive 17 serving as reading means. data) to an up-conversion to Help processor.

  In the present embodiment, when the up-conversion function is selected during DVD playback in which video content such as a movie is recorded, video data (main video data) and audio data encoded according to the MPEG (Moving Picture Experts Group) 2 system Compressed stream data obtained by multiplexing sub-picture data (sub-picture data) such as subtitle data is read from the DVD as DVD playback data by the DVD application program. The resolution of the compressed stream data is, for example, 720 × 480 or 720 × 576. Video data included in the compressed stream data read from the DVD is transferred to the multimedia processor 112 via the PCI Express bus 135 having a high transfer speed, and is decoded and processed as HD-quality video data, for example, 1920 × After up-conversion processing to a resolution of 1080, it is combined with sub-picture data that has been up-converted separately from video data, and is rendered.

  In the present embodiment, a multimedia processor 112, which is a dedicated processor different from the CPU 101, is used as a back-end processor, and this multimedia processor 112 performs decoding processing of compressed stream data and up-conversion processing of video data. The Therefore, the up-conversion process can be executed without increasing the load on the CPU 101.

  The sound controller 106 is a sound source device, and outputs audio data to be reproduced to the speaker 19 or the HDMI control circuit 121.

  The card controller 113 controls cards such as PC cards and SD (Secure Digital) cards. The wireless LAN controller 114 is, for example, a wireless communication device that performs wireless communication of the IEEE 802.11 standard. The IEEE 1394 controller 115 executes communication with an external device via an IEEE 1394 standard serial bus.

  The embedded controller / keyboard controller IC (EC / KBC) 116 is a one-chip microcomputer in which an embedded controller for power management and a keyboard controller for controlling the keyboard (KB) 14 and the touch pad 16 are integrated. . The embedded controller / keyboard controller IC (EC / KBC) 116 has a function of powering on / off the information processing apparatus 1 in accordance with the operation of the power switch 15 by the user. Further, the embedded controller / keyboard controller IC (EC / KBC) 116 has a function of executing communication with the remote control unit interface 118.

  The TV tuner 117 is a receiving device that receives broadcast program data broadcast by a television broadcast signal, and is realized as a digital TV tuner capable of receiving digital broadcast program data such as terrestrial digital TV broadcast. .

  FIG. 3 is a diagram for explaining the flow of data during DVD playback.

  DVD reproduction data based on reproducing a DVD is compressed stream data including sub-picture data such as video data, audio data, and caption data. In the following description, the flow of video data and sub-picture data when outputting compressed stream data read from a DVD as HD image quality data will be described.

  The compressed stream data is transferred to the main memory 103 via the PCI bus 130, the south bridge 104, the DMI (Direct Media Interface) bus 131, the north bridge 102, and the data bus 132.

  The video data included in the compressed stream data transferred to the main memory 103 is read from the main memory 103 based on the execution of the DVD application program, and the data bus 132, the north bridge 102, the DMI bus 131, the south bridge 104, the PCI Transferred to the multimedia processor 112 via the Express bus 135.

  The compressed stream data transferred to the multimedia processor 112 is subjected to MPEG2 decoding processing and up-conversion processing, and then as HD image quality data via the PCI Express bus 135, the south bridge 104, the DMI bus 131, the north bridge 102, and the data bus 132. It is transferred again to the main memory 103.

  The video data which is the up-converted HD image quality data transferred to the main memory 103 is read again from the main memory 103 based on the execution of the DVD application program, and passes through the data bus 132, the north bridge 102, and the data bus 134. Are transferred to the GPU 105 and transferred from the GPU 105 to the VRAM 105A.

  Also, the sub-picture data included in the compressed stream data transferred to the main memory 103 is read from the main memory 103 based on the execution of the DVD application program, and the data bus 132, the north bridge 102, and the FSB (Front Side Bus) are read out. ) 133, transferred to the CPU 101 via the CPU 101, up-converted according to the HD standard by the CPU 101, transferred to the GPU 105 via the FSB 133, the north bridge 102, and the data bus 132, and transferred from the GPU 105 to the VRAM 105 </ b> A. Note that the up-conversion processing of sub-picture data can be performed by the GPU 105, and is performed by the CPU 101 or the GPU 105 depending on the operation status of the information processing apparatus 1.

  The video data and sub-picture data transferred to the VRAM 105A are combined for each frame, transferred to the GPU 105, and rendered by the GPU 105. Note that the video data and the sub-picture data may be combined by the CPU 101 or the GPU 105.

  FIG. 4 is a diagram showing a reproduction process when a DVD is reproduced by the information processing apparatus according to the embodiment of the present invention.

  DVD playback is executed by a DVD application program loaded into the main memory 103 of the information processing apparatus 1. The DVD application program functions as a stream data separation unit (separation unit) that separates compressed stream data, and also includes a navigation filter 200 that controls transfer of the separated compressed stream data, and a compressed data included in the compressed stream data. The video decoder 201 includes a sub-picture decoder 202 that decodes sub-picture data and a multimedia processor control unit 203 that controls transfer of compressed video data to the multimedia processor 112.

  The navigation filter 200 separates the compressed video data and the compressed sub-picture data included in the compressed stream data, and outputs them to the video decoder 201.

  The video decoder 201 decodes the compressed sub-picture data transmitted from the navigation filter 200 and the compressed video data transmitted from the navigation filter 200 when up-conversion processing is designated. A multimedia processor control unit 203 that transmits to the multimedia processor 112;

  The multimedia processor 112 includes a decoder 112A that decodes the compressed video data transmitted from the multimedia processor control unit 203, and an upconverter 112B that upconverts the decoded baseband video data.

  The multimedia processor control unit 203 includes a video data decoder, and has a function of converting compressed video data into baseband SD data when up-conversion processing is not designated.

  Also, the baseband sub-picture data output from the video decoder 201 is transmitted to the mixer 205 via the up-converter 204 provided in the subsequent stage. Baseband video data is transmitted from the multimedia processor control unit 203 to the mixer 205.

Upconverter 204, you upconverted in the conversion sub-picture data to sub-picture data such as subtitles decoded by the sub-picture decoder 202.

  The mixer 205 combines the up-converted video data and the up-converted sub-picture data.

  The renderer 206 performs image quality improvement processing of video data obtained by combining video data and sub-picture data, and performs rendering processing of an image to be displayed. Here, the image quality improvement processing is processing such as adjustment of the hue of the synthesized video data.

  Hereinafter, a DVD reproducing operation in the information processing apparatus of the present invention will be described with reference to the drawings. The following description is for a case where DVD playback is performed with the up-conversion process enabled.

  FIG. 5 is a flowchart showing the flow of playback processing when a DVD is played back by the information processing apparatus according to the embodiment of the present invention.

  First, the DVD application program is started when the user operates the keyboard 14 and the touch pad 16 while the operating system (OS) of the information processing apparatus 1 is started (S1).

  Subsequently, the DVD 18 on which video content such as a movie is recorded is set in the DVD drive 17 of the information processing apparatus 1, and the up-conversion processing is enabled while viewing the screen display of the DVD application program displayed on the LCD 13 of the display unit 12. (S2).

  The CPU 101 causes the compressed stream data reproduced by the DVD drive 17 to be transferred to the main memory 103 via the PCI bus 130, the south bridge 104, the DMI bus 131, the north bridge 102, and the data bus 132 (S3).

  The compressed stream data transferred to the main memory 103 is decrypted by a DVD application program loaded in the main memory 103 and then compressed into video data compressed by the navigation filter 200 and compressed sub-picture data. Separated and output to the video decoder 201, respectively.

  The compressed video data is transmitted to the multimedia processor control unit 203 of the video decoder 201. The compressed video data is read from the main memory 103 in synchronization with the DVD playback operation, and multimedia is transmitted via the data bus 132, the north bridge 102, the DMI bus 131, the south bridge 104, and the PCI Express bus 135. The data is transferred to the processor 112 (S4).

  The multimedia processor 112 decodes the compressed video data by the decoder 112A into baseband video data, and upconverts this video data to high-resolution HD image quality data by the upconverter 112B (S5).

  The up-converted high-resolution HD image quality data is stored in the DVD application program loaded in the main memory 103 via the PCI Express bus 135, the south bridge 104, the DMI bus 131, the north bridge 102, and the data bus 132. The data is transferred again to the media processor control unit 203. (S6)

  The DVD application program transfers the up-converted video data to the GPU 105. The GPU 105 transfers the video data to the VRAM 105A (S7).

  Further, the DVD application program transfers the sub picture data to the CPU 101 (S8).

  The CPU 101 up-converts the sub-picture data and transfers the up-converted sub-picture data to the GPU 105 (S9).

  The GPU 105 transfers the transferred sub-picture data to the VRAM 105A. The GPU 105 combines the video data and the sub-picture data of the HD image quality data temporarily stored in the VRAM 105A by the mixer 205 and transfers the synthesized data to the renderer 206 as a drawing unit (S10).

  The renderer 206 draws video data obtained by synthesizing the video data and the sub-picture data and outputs it to the display driver. The display driver drives the LCD 13 to display the video data on the screen (S11).

(Effect of the embodiment of the present invention)
According to the embodiment of the present invention described above, conversion processing such as decoding and up-conversion of video data is performed by the multimedia processor 112 connected through a high-speed transmission path such as a PCI Express bus, and the converted video data is converted into video data. Since the data is transferred to the subsequent processing circuit via a high-speed transmission path, decoding processing and up-conversion processing to HD image quality data that requires a large amount of calculation and processing time can be efficiently performed separately from the sub-picture data. As a result, even when a high-definition video of the HD standard is played back while playing a DVD, high-speed and stable data conversion processing having real-time characteristics can be performed without interrupting the playback operation.

  In particular, baseband data has a larger amount of information than encoded bitstream signal format data, especially if it is an HD standard video that is a high-quality video. If the up-conversion processing of video data and sub-picture data is performed by the multimedia processor 112, and the synthesis thereof is performed by the CPU 101 or the GPU 105, the HD-quality baseband data flows on the bus as two streams. As a result, the bandwidth may be reduced and playback delay may be caused. Therefore, in the present embodiment, sub-picture data is up-converted on the CPU 101 or GPU 105 (by the up-converter 204), and HD image quality baseband data flowing on the bus is video data up-converted by the multimedia processor 112. Only to. As a result, the amount of information flowing on the bus can be suppressed, thereby ensuring real-time performance.

  In this embodiment, the multimedia processor 112 performs not only up-conversion processing but also decoding processing. As a result, the amount of information flowing on the bus 131 can be suppressed compared to the case where the decoding process is performed by the CPU 101 or the GPU 105 and only the up-conversion process is performed by the multimedia processor 112, thereby ensuring real-time performance. it can.

  Furthermore, since the screen display of subtitles and the like displayed as subpictures frequently occurs during playback, switching between ON / OFF and display switching between Japanese subtitles and other language subtitles is performed by the multimedia processor 112. By decoding with the CPU 101 or the GPU 105 rather than performing it, it is possible to flexibly cope with the user's needs.

  Also, when converting video data to high-definition HD image quality data, the information processing load of the conversion processing unit increases dramatically. However, in the information processing apparatus 1 of the above-described embodiment, the sub-picture conversion processing is a multi-process. Since the processing is not performed by the media processor 112, the multimedia processor 112 can be specified and used for higher resolution, thereby ensuring real-time performance synchronized with video playback based on DVD playback, and higher resolution processing. It becomes possible to select an algorithm with a large amount of calculation.

[Other embodiments]
The present invention is not limited to the above-described embodiment, and various modifications can be made without departing from or changing the technical idea of the present invention.

It is a perspective view which shows the information processing apparatus which concerns on embodiment of this invention. It is a block diagram which shows the system configuration | structure of the information processing apparatus which concerns on embodiment of this invention. It is a figure explaining the flow of data at the time of DVD reproduction. It is a figure which shows the reproduction | regeneration processing at the time of reproducing | regenerating DVD with the information processing apparatus which concerns on embodiment of this invention. . It is a flowchart which shows the flow of the reproduction | regeneration processing at the time of reproducing | regenerating DVD with the information processing apparatus which concerns on embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Information processing apparatus, 11 ... Computer main body, 12 ... Display unit, 14 ... Keyboard, 15 ... Power switch, 16 ... Touch pad, 17 ... DVD drive, 18 ... DVD, 19 ... Speaker, 102 ... North bridge, 103 ... Main memory 104 ... South bridge 106 ... Sound controller 110 ... LAN controller 112 ... Multimedia processor 112A ... Decoder 112B ... Up converter 113 ... Card controller 114 ... Wireless LAN controller 115 ... IEEE 1394 controller 117 ... TV tuner, 118 ... Remote control unit interface, 119 ... TV terminal, 121 ... HDMI control circuit, 122 ... HDMI terminal, 123 ... HDMI monitor, 130 ... PCI bus, 131 ... MI bus, 132 ... data bus, 133 ... FSB, 134 ... data bus, 135 ... PCI Express bus, 200 ... navigation filter, 201 ... video decoder, 202 ... sub-picture decoder, 203 ... multimedia processor controller, 204 ... up Converter, 205 ... Mixer, 206 ... Renderer

Claims (8)

A stream data separation unit for separating compressed video data and compressed sub-picture data from compressed stream data read from a recording medium;
A memory for storing the compressed video data and the compressed sub-picture data;
A first conversion processing unit that is connected to a main control unit that controls reproduction of the recording medium via a bus and generates high-resolution converted video data by decoding data obtained by decoding the compressed video data transmitted from the memory When,
A second conversion processing unit that is hardware different from the first conversion processing unit and that generates converted sub-picture data by increasing the resolution of data obtained by decoding the compressed sub-picture data transmitted from the memory; ,
A rendering unit that synthesizes the converted video data and the converted sub-picture data and outputs the resultant to a display unit;
An information processing apparatus comprising:   The information processing apparatus according to claim 1, wherein the first conversion processing unit includes a decoder that decodes the compressed video data.   The first conversion processing unit receives the compressed video data in the bit stream signal format via the bus, and converts the converted video data in the baseband signal format obtained by decoding and up-converting the compressed video data. The information processing apparatus according to claim 1, wherein the information processing apparatus transmits the information through a bus.   The information processing apparatus according to claim 1, wherein the second conversion processing unit is the main control unit or a graphics processing unit. Separating compressed video data and compressed sub-picture data from compressed stream data read from a recording medium;
Storing the compressed video data and the compressed sub-picture data;
Generating converted video data by increasing the resolution of the decoded video data transmitted from the memory connected to a main control unit for controlling reproduction of the recording medium via a bus;
Generating converted sub-picture data by increasing the resolution of data obtained by decoding the compressed sub-picture data transmitted from the memory on a hardware different from the hardware that generates the converted video data ;
Combining the converted video data and the converted sub-picture data and outputting to the display unit;
A video playback method comprising:   The step of generating the converted video data includes receiving the compressed video data in the bit stream signal format via the bus, decoding and upconverting the compressed video data, and converting the video data in the baseband signal format. 6. The video reproduction method according to claim 5, wherein the video is transmitted through the bus. Reading means for reading stream data in which main video data and sub-video data are multiplexed from a storage medium;
Separating means for separating the main video data and the sub-video data from the stream data read from the storage medium;
A first conversion means for performing a high-resolution processing of the sub-picture obtained by decoding the sub-picture data on the CPU or GPU;
Second conversion means for performing a high-resolution processing of a main video obtained by decoding the main video data on a processor connected to the CPU via a bus;
The sub-video that has been subjected to the resolution enhancement processing by the first conversion means and the main video that has been subjected to the resolution enhancement processing by the second conversion means are synthesized on the CPU or the GPU and displayed on the display device. An information processing apparatus comprising drawing means for outputting.   The main video data separated by the separation means is transmitted to the processor via the bus, and the main video data is decoded on the processor and high resolution processing of the main video obtained by the decoding is performed. The information processing apparatus according to claim 7.

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